Chinese Optics Letters, 2020, 18 (11): 113701, Published Online: Oct. 9, 2020
Terahertz radiation enhancement in photoconductive antennas with embedded split-ring resonators 
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Fig. 1. D-PCA and MSPCA. (a) Micrograph of D-PCA. (b) Structure and parameters of SRRs. (c) Micrograph of MSPCA-A. (d) Micrograph of MSPCA-B.
Fig. 4. THz characteristics of femtosecond laser pumping on the D-PCA, MSPCA-A, and MSPCA-B. Comparison of (a) amplitude and normalized amplitude of THz time domain spectra, and (b) power and normalized power of THz frequency domain spectra.
Fig. 5. Comparison of the characteristics of the THz radiation for femtosecond laser pumping on the split positions of SRR of MSPCA and on the electrode edge of the D-PCA. (a) THz amplitude and normalized THz amplitude of MSPCA-A and D-PCA, (b) THz power and normalized THz power of MSPCA-A and D-PCA, (c) THz amplitude and normalized THz amplitude of MSPCA-B and D-PCA, and (d) THz power and normalized THz power of MSPCA-B and D-PCA.
Fig. 6. Comparison of THz time domain spectrum for femtosecond laser pumping at different positions. THz amplitude and normalized THz amplitude of (a) MSPCA-A when the pumping light is incident on −90 μm and −100 μm and (b) MSPCA-B when the pumping light is incident on −110 μm and −100 μm. Pattern of THz time domain spectral peak-to-peak value of (c) MSPCA-A and (d) MSPCA-B.
Hu Deng, Weiwei Qu, Quancheng Liu, Zhixiang Wu, Liping Shang. Terahertz radiation enhancement in photoconductive antennas with embedded split-ring resonators[J]. Chinese Optics Letters, 2020, 18(11): 113701.
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